Your search keyword '"MohammadNavid Haddadnezhad"' showing total 4 results

1. Silver Double Nanorings with Circular Hot Zone

Author

Jae-Myoung Kim, MohammadNavid Haddadnezhad, Junghwa Lee, Sungho Park, Doo Jae Park, Jwa-Min Nam, Jeongwon Kim, Sungwoo Choi, Sungwoo Lee, and Sungjae Yoo

Subjects

Electromagnetic field, Detection limit, Chemistry, Surface plasmon, chemistry.chemical_element, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Molecular physics, Catalysis, 0104 chemical sciences, symbols.namesake, Colloid and Surface Chemistry, Homogeneity (physics), symbols, Molecule, Halo, Platinum, Raman scattering

Abstract

Silver double nanorings with circular intra-nanogaps between two nanorings of different diameters were synthesized without a linker molecule to confine an incident electromagnetic field in a single entity. We used on-demand, rational, and systematic multi-stepwise reactions consisting of (1) selective etching of gold, (2) rim-on deposition of platinum, (3) eccentric growth of gold, and (4) concentric growth of silver. The resulting silver double nanorings exhibited a high degree of homogeneity in both shape and size, with strongly coupled circular hot zones (or "hot halos", referring to the circular intra-nanogaps capable of focusing the near electromagnetic field) resulting from strong surface plasmon coupling between the inner and outer nanorings. Remarkably, these silver double nanorings exhibited strong, stable, and reproducible single-particle surface-enhanced Raman scattering signals without blinking. The signals appeared independently of polarization directions, which is a unique feature of a circular hot halo. The estimated enhancement factor was between 2 × 108 and 7 × 108. The measured limit of detection was 10-7 M in bulk concentration, and the signal appeared 570 s after sample exposure.

Published

2020

2. Au Nanorings with Intertwined Triple Rings

Author

Hajir Hilal, Jae-Myoung Kim, Jeongwon Kim, Jiwoong Son, Soo Hyun Lee, Sungeun Go, MohammadNavid Haddadnezhad, Jwa-Min Nam, Sungho Park, and Sungjae Yoo

Subjects

Chemistry, Nanoparticle, General Chemistry, Biochemistry, Isotropic etching, Catalysis, symbols.namesake, Colloid and Surface Chemistry, Chemical physics, Homogeneity (physics), symbols, Molecule, Surface plasmon resonance, Nanoscopic scale, Raman scattering, Nanoring

Abstract

We designed complex Au nanorings with intertwined triple rings (ANITs) in a single entity to amplify the efficacy of near-field focusing. Such a complex and unprecedented morphology at the nanoscale was realized through on-demand multistepwise reactions. Triangular nanoprisms were first sculpted into circular nanorings, followed by a series of chemical etching and deposition reactions eventually leading to ANITs wherein thin metal bridges hold the structure together without any linker molecules. In the multistepwise reaction, the well-faceted growth pattern of Au, which induces the growth of two distinctive flat facets in a lateral direction, is important to evolve the morphology from single to multiple nanorings. Although our synthesis proceeds through multiple steps in one batch without purification steps, it shows a remarkably high yield (>∼90%) at the final stage. The obtained high degree of homogeneity (in both shape and size) of the resulting ANITs allowed us to systematically investigate the corresponding localized surface plasmon resonance (LSPR) coupling with varying nanoring arrangements and observe their single-particle surface enhanced Raman scattering (SERS). Surprisingly, individual ANITs exhibited an enormously large enhancement factor (∼109), which confirms their superior near-field focusing relative to other reported nanoparticles.

Published

2021

3. Three-Dimensional Gold Nanosphere Hexamers Linked with Metal Bridges: Near-Field Focusing for Single Particle Surface Enhanced Raman Scattering

Author

Sungho Park, Jae-Myoung Kim, Jeongwon Kim, Sungjae Yoo, Hajir Hilal, Jiwoong Son, Sungwoo Lee, Jwa-Min Nam, and MohammadNavid Haddadnezhad

Subjects

Nanostructure, Chemistry, Near and far field, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, 0104 chemical sciences, Metal, symbols.namesake, Colloid and Surface Chemistry, Octahedron, Chemical physics, visual_art, symbols, visual_art.visual_art_medium, Particle, Structural rigidity, Raman spectroscopy, Raman scattering

Abstract

Herein, we report the novel strategy for the synthesis of complex 3-dimensional (3D) nanostructures, mimicking the linker molecule-free 3D arrangement of six Au nanospheres at the vertices of octahedrons. We utilized 3D PtAu skeleton for the structural rigidity and deposited Au around the PtAu skeleton in a site-selective manner, allowing us to investigate their surface plasmonic coupling phenomenon and near-field enhancement as a function of sizes of nanospheres, which are directly related to the intrananogap distance and interior volume size. The resulting 3D Au hexamer structures with octahedral arrangement were realized through precise control of the Au growth pattern. The complex 3D Au hexamers were composed of six Au nanospheres connected by thin metal conductive bridges. The standard deviation of the metal conductive bridges and Au nanospheres was within ca. 10%, exhibiting a high degree of homogeneity and precise structural tunability. Interestingly, charge transfer among the six Au nanospheres occurred along the metal conductive bridges leading to surface plasmonic coupling between Au nanospheres. Accordingly, electric near fields were strongly and effectively focused at the vertices, intrananogap regions between Au nanospheres, and interior space, exhibiting well-resolved single-particle surface-enhanced Raman spectroscopy signals of absorbed analytes.

Published

2020

4. Web‐above‐a‐Ring (WAR) and Web‐above‐a‐Lens (WAL): Nanostructures for Highly Engineered Plasmonic‐Field Tuning and SERS Enhancement

Author

Sungwoo Lee, Jeongwon Kim, Junghwa Lee, Jae-Myoung Kim, Sungjae Yoo, Jieun Shin, MohammadNavid Haddadnezhad, Jiwoong Son, Sungho Park, Soo Hyun Lee, and Jwa-Min Nam

Subjects

Nanostructure, Materials science, Metal Nanoparticles, Nanotechnology, 02 engineering and technology, Spectrum Analysis, Raman, 010402 general chemistry, 01 natural sciences, Biomaterials, symbols.namesake, General Materials Science, Plasmon, Plasmonic nanoparticles, Reproducibility of Results, General Chemistry, Surface-enhanced Raman spectroscopy, 021001 nanoscience & nanotechnology, Nanostructures, 0104 chemical sciences, Nanopore, symbols, Gold, 0210 nano-technology, Raman spectroscopy, Raman scattering, Nanoring, Biotechnology

Abstract

Synthetic strategies of web-above-a-ring (WAR) and web-above-a-lens (WAL) nanostructures are reported. The WAR has a controllable gap between the nanoring core and a nanoweb with nanopores for the effective confinement of electromagnetic field in the nanogap and subsequent surface-enhanced Raman scattering (SERS) of Raman dyes inside the gap with high signal reproducibility, which are attributed to the generation of circular 3D hot zones along the rim of Pt@Au nanorings with wrapping nanoweb architecture. More specifically, Pt@Au nanorings are adopted as a plasmonic core for structural rigidity and built porous nanowebs above them through a controlled combination of galvanic exchange and the Kirkendall effect. Both nanoweb and nanolens structures are also formed on Pt@Au nanoring, which is WAL. structure. Remarkably, plasmonic hot zone, nanopores, and hot lens are formed inside a single WAL nanostructure, and these structural components are orchestrated to generate stronger SERS signals.

Published

2021